期刊文献+

Conservation of natural enemy fauna in citrus canopies by horticultural mineral oil: Comparison with effects of carbaryl and methidathion treatments for control of armored scales

Conservation of natural enemy fauna in citrus canopies by horticultural mineral oil: Comparison with effects of carbaryl and methidathion treatments for control of armored scales
原文传递
导出
摘要 The disruptive effects of an nC24 horticultural mineral oil (HMO) and two other insecticides (carbaryl and methidathion) on two armored scale insects and natural enemy fauna were evaluated in two citrus orchards. In the first orchard, all three spray treatments and non-sprayed controls were distributed separately among individual trees in one block, whereas in the second orchard the control, HMO and methidathion treatments were applied at the level of whole blocks. The results in both orchards were similar. All three of the spray treatments had a lethal effect on the red scale insects and the effects of HMO and methidathion tested at the second site lasted for at least 19 weeks and for purple scale, at least 50 weeks. HMO did not have a significant effect on the abundance and species diversity of parasitoids and (for the most part) did not affect coccinellids and predatory mites. Both carbaryl and methidathion caused significant ongoing disruption to the above groups. No treatment resulted in the resurgence of the scale insects or the outbreak ofphytophagous mites, even where whole blocks were sprayed. The disruptive effects of an nC24 horticultural mineral oil (HMO) and two other insecticides (carbaryl and methidathion) on two armored scale insects and natural enemy fauna were evaluated in two citrus orchards. In the first orchard, all three spray treatments and non-sprayed controls were distributed separately among individual trees in one block, whereas in the second orchard the control, HMO and methidathion treatments were applied at the level of whole blocks. The results in both orchards were similar. All three of the spray treatments had a lethal effect on the red scale insects and the effects of HMO and methidathion tested at the second site lasted for at least 19 weeks and for purple scale, at least 50 weeks. HMO did not have a significant effect on the abundance and species diversity of parasitoids and (for the most part) did not affect coccinellids and predatory mites. Both carbaryl and methidathion caused significant ongoing disruption to the above groups. No treatment resulted in the resurgence of the scale insects or the outbreak ofphytophagous mites, even where whole blocks were sprayed.
出处 《Insect Science》 SCIE CAS CSCD 2010年第5期414-426,共13页 昆虫科学(英文版)
关键词 CONSERVATION HMO replacement RESURGENCE water saving conservation, HMO, replacement, resurgence, water saving
  • 相关文献

参考文献42

  • 1Beat-tie, G.A.C., Cliff, A.D., Parkes, R.A. and Jiang, L. (2002) Impact of spray volume and horticultural mineral oil concentration on control of pink wax scale and red scale in citrus orchards. Spray Oils Beyond 2000 (eds. G.A.C. Beattie, D.M. Watson, M.L. Stevens, D.J. Rae & R.N. Spooner-Hart), pp. 582-591. University of Western Sydney, Australia.
  • 2Beattie, G.A.C., Robert, E.A., Vanhoff, C.L. and Flack, L.K. (1991) Effects of climate, natural enemies and biocides on three mites in coastal New South Wales. Experimental and Applied Entomology, 11,271-295.
  • 3Bellows, T.S., Morse, J.G. and Gaston, L.K. (1993) Residual toxicity of pesticides used for lepidopteran insect control on citrus to Aphytis melinus Debach (Hymenoptera: Aphelinidae). Canadian Entomologist, 125,995-1001.
  • 4Coll, M. and Abd-Rabou, S. (1998) Effect ofoil emulsion sprays on parasitoids of the black parlatoria, Parlatoria ziziphi, in grapefruit. BioControl, 43, 29-37.
  • 5CSIRO (1991) Insects of Australia, Vols. 1 & 2, Melbourne University Press, Melbourne, Australia.
  • 6Cunningham, G.E and Harden, J. (1999) Sprayers to reduce spray volumes in mature citrus trees. Crop Protection, 18, 275-281.
  • 7Davidson, N.A., Dibble, J.E., Flint, M.L., Marer, P.J. and Guye, A. (1991) Managing insects and mites with spray oils. University of California, Special Publication 3347, 47 pp.
  • 8DeBach, P. and Bartlett, B. (1991) Effects of insecticides on biological control of insect pests of citrus. Journal of Economic Entomology, 44, 372-383.
  • 9Dutcher, J.D. (2007) A review of resurgence and replacement causing pest outbreaks in IPM. General Concepts in Integrated Pest and Disease Management (eds. A. Ciancio & K.G. Mukerji), pp. 27-43. Springer, the Netherlands.
  • 10Graflon-Cardwell, E.E. and Ouyang, Y. (1993) Toxicity of four insecticides to various populations of the predacious mite, Euseius tularensis Congdon (Acarina: Phytoseiidae) from San Joaquin Valley California citrus. Journal of Agricultural Entomology, 10, 21-29.

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部